MARKFORGED INDUSTRIAL GRADE 3D PRINTING

The strength you need for tooling and functional parts. Designed for accuracy and built to survive the production floor environment, our composite 3D printers power the next 10x in design and manufacturing.

MARKFORGED X3

MARKFORGED INDUSTRIAL SERIES FEATURES

Industrial grade performance starts with an all-aluminum unibody enclosure built around an ultra flat gantry system. Add a machined aluminum stage with kinematic bed coupling, and a precision ground print platform. Then close the loop with software - instrumenting each machine with a full sensor suite including motor encoders and a calibration laser so accurate it can compensate for single digit changes in room temperature.

USABILITY

Cloud-connected software and a 4.3” touchscreen comes standard with every printer, washer and furnace.

ALWAYS UP-TO-DATE

CONTINUOUS FILAMENT FABRICATION

Formed from the combination of two materials, composite parts are incredibly strong and versatile.

LASER PRECISION

With a built-in laser micrometer, automatically scan the print bed with 1um accuracy to generate a contour map of its surface.

LEARN WHY TURRET LATHE SPECIALISTS CHOSE MARKFORGED

Turret Lathe Specialists accelerated their lead time for large volume productions without reducing their ability to help customers with rapid prototyping or short volume runs. After discovering Markforged, they realized how a desktop 3D printer capable of printing metal-strength parts could cut down on time and costs while simplifying production runs.

Using the Markforged 3D Printer to make prototypes and templates just as strong as their metal counterparts, they were able to cut the manufacturing price of an engine manifold from $2,000 down to $117.

SEE HOW DIXON VALVE & COUPLING USES MARKFORGED 3D PRINTERS

See how Dixon Valve & Coupling used Markforged to 3D print custom jaws for industrial robotic arms on their factory floor.

The Markforged 3D printer eliminated weeks of manufacturing lead time by producing a set of robust grippers in under 24 hours, allowing Dixon Valve to easily develop new production solutions. Prior to using 3D printed jaws in the cell, we were machining each tool individually, and it would take weeks.